agi08 jeremy morley
DESCRIPTION
Presentation from the AGI Geocommunity 2008 conference, September 2008.TRANSCRIPT
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If we have Google, do weIf we have Google, do weggneed the OGC?need the OGC?
J M lJeremy [email protected] y@ g
Dept. Civil, Environmental & GeomaticDept. Civil, Environmental & Geomatic Engineering, UCL
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G lGoal
• To explore the places of Google and the Open Geospatial Consortium (OGC) inOpen Geospatial Consortium (OGC) in geospatial information systems, especially web mapping(And by extension Microsoft Virtual Earth• (And by extension, Microsoft Virtual Earth, Multimap, OS OpenSpace, etc.)p p p )
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O tliOutline
• [ Web mapping under the hood ]G l ' ti l t• Google's geospatial systems
• Introduction to the OGCIntroduction to the OGC• Google Maps versus OGC Web Map
ServicesB d b i• Beyond web mapping
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G l ' ti l tGoogle's geospatial systems
• Google MapsG l E th• Google Earth
• KMLKML• SketchUp
– 3D design sketching softwareRecent addition: ArcGIS connector– Recent addition: ArcGIS connector
– Collada (XML 3D exchange format)( g )
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Google Maps
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Particular features of Google MapsParticular features of Google Maps• AJAX programming => interactivityAJAX programming > interactivity• Good UI (simple, uncluttered)• Data!
Fi d l l i• Fixed zoom levels, raster mapping(<=> server farms cartography)(< > server farms, cartography)
• Well integrated functionality,– e.g. route planning with vector overlay
Published public free (to some) access• Published, public, free (to some) access,Javascript API
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Public API -> MashupsWikimapia
www.wikimapia.orgPublic API Mashups
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Google Earthg
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Scientific data in Google EarthScientific data in Google Earth
The Visual Exploration of Insurance Data in Google Earthp gAidan Slingsby, Jason Dykes, Jo Wood, Matthew Foote, Mike Blom
Proceedings of GISRUK 2008
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KML Now an OGC standardKML• Used by Google to describe geographic features &
services, particularly for Google Maps & Earth, p y g p• An XML application to:
– Specify icons and labels to identify locations on the planet surface – Create different camera positions to define unique views for each of
your features – Use image overlays attached to the ground or screenUse image overlays attached to the ground or screen – Define styles to specify feature appearance – Write HTML descriptions of features, including hyperlinks and
embedded imagesembedded images – Use folders for hierarchical grouping of features – Dynamically fetch and update KML files from remote or local
network locations – Fetch KML data based on changes in the 3D viewer – Display COLLADA textured 3D objects (SketchUp)Display COLLADA textured 3D objects (SketchUp)
• http://earth.google.com/kml/whatiskml.html
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Introduction to the OGCIntroduction to the OGC• Open Geospatial ConsortiumOpen Geospatial Consortium• Consortium of vendors, users, academics involved
fin geospatial information technologies• Includes the major GIS vendors, the largestIncludes the major GIS vendors, the largest
players in the IT world, small companies, national agencies universitiesagencies, universities– E.g. Mapinfo, ESRI, Intergraph, Cadcorp,..
Google Microsoft Oracle– Google, Microsoft, Oracle– NASA, ESA, USGS, OS, BGS, NERC– UCL Nottingham EDINA City University– UCL, Nottingham, EDINA, City University
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OGC Obj tiOGC Objectives
• Promote the use of “interoperable geoprocessing” throughout the Information Technology marketplacethroughout the Information Technology marketplace.
• Synchronize “geoprocessing technology” with commercial “Information Technology standards”Information Technology standards
• Arrange cooperation of “GI product suppliers” and “GI ” t d l i t bl ft i t fusers” to develop interoperable software interfaces
• Involve the entire community in the “interoperability ”process”
• Provide an “industry forum” for “partnerships” and cooperative business development projects.
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S h t h th OGC i ?So, what has the OGC given us?
• GML for geographic data exchange• Standardised methods for interacting with
GIS web servicesGIS web services– NB: care over the phrase "web services"
• Wide range of GIS web services:Web Map Service– Web Map Service
– Web Coverage & Feature Services– Catalog Service for the Web
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GML –Geographic Markup Language
• GML is one of the older standards• Concerned with data, not representation
(cf KML)(cf. KML)• Has evolved with time to add functionality• GML 2:
– XML for Simple FeaturesXML for Simple Features– "Simple features" 2D vector data only + feature
collectionscollections– Version 2.1.2 used as foundation for OS Mastermap
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GML 3GML 3• In addition to simple 2D linear features:
features with complex, non-linear, 3D geometry; features g ywith 2D topology, features with temporal properties, dynamic features, coverages, and observations;
• represent spatial and temporal reference systems, units of measure and standards information;
• use reference system, units and standards information in the representation of geospatial phenomena, p g p p ,observations, and values;
• represent default styles for feature and coveragerepresent default styles for feature and coverage visualization.
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OGC W b M iOGC Web MappingTh diff t i f i t t• Three different services of interest:– Web Map Service (WMS), Web Feature Service (WFS),
Web Coverage Service (WCS)• Server-side mapping methodsServer side mapping methods• Map (and other) requests are made through
standard HTTP methodsstandard HTTP methods– URL– Parameters supplied within URL (GET) or hidden in
document (POST)– One request gives one response (stateless)
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Example –UCL's ICEDSUCL s ICEDS
Partially transparent GOES imagery overlaid on SRTM topography – iceds.ge.ucl.ac.uk
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Cascaded services• ICEDS can act as client as well as server• Requests for non-local layers are passed
through to other services on the webthrough to other services on the web• This is known as cascadingThis is known as cascading
WMS
UCL ICEDSWEB BROWSER UCL ICEDS
Acting as proxy: cascade requests, assemble map
WEB BROWSER
ICEDS portal Web requests, assemble map
OGC server
ICEDS portal Website OGC Services,
e g CIESIN
WMS
OGC server
Geospatial(DHTML +Javascript)
WMSe.g. CIESINWFS/
WCS
Geospatial data storage
p )
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Wh OGC?Why OGC?
• Standardised access to data and map servicesservices
• Independence from vendor/database/OSp=> choice, flexibility, upgrade, 'free' prototyping
• Clients can start to access different providers' services with minimal extraproviders services with minimal extra programming
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Best of breed,,software independence
These are the OGC t d d lUCL ICEDSThese are the
components we use.
Chosen best of breed
OGC standards also give independence from spatial
Acting as proxy: cascade requests, assemble map
Chosen best of breed open source elements BUT could easily
from spatial database / file systems in
ti d t &
Stores case annotations
Mapserversubstitute different components, e.g. vendor solutions
presenting data & catalogue to the Internet
Geoserver Filesvendor solutions Internet
PostGIS
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Google Maps versus OGC WMSg p1 - Interfaces
• GUIWMS t i i d d t f GUI– WMS, etc., is independent of GUI
– Open source interfaces are available to build pupon, e.g. OpenLayers, similar to Google MapsArcGIS Explorer NASA WorldWind globes– ArcGIS Explorer, NASA WorldWind globes
• Programming: what's in an API?g g– The Google API has clearly encouraged uptake
Si il API il bl f th i l &– Similar APIs available for other commercial & open source clients, e.g. OpenLayers, ESRI
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Google Maps versus OGC WMSg p2 - Data
• The principle advantage of Google (or Microsoft OS Multimap etc )Microsoft, OS, Multimap etc.)
• However a number of cascadable, open , paccess global data WMS
O St t– OpenStreetmap– JPL's OnEarth global satellite mapsg p– UCL ICEDS for terrain
b t 'll h t f & h t d t t t– but you'll have to pay for & host data to get same resolution as Google (etc)
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Google Maps versus OGC WMSg p- Mixed mode
• Possible to mix Google Maps data layers with OGC WMSwith OGC WMS– Still needs a Google Maps API key
http://www openlayers org/dhttp://www.openlayers.org/dev/examples/example-list.html
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OGC i h t i tiOGC service characteristics"Complex"• "Complex"– Needn't be more complex to set up than vendor web-
GIS solutions– Possibly, if using separate client and server
components, but standardised interfaces– Issues of security, authentication, availability in cross-y y
institution systems. Fair comparison?• "Slow"Slow
– If unconstrained client, server will have to work to generate maps Difficult to cachegenerate maps. Difficult to cache.
– So constrain zoom, using cached tiles (Ka-Map)
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W b d tWeb data access
• We can move beyond simple Web client access to map imagesaccess to map images
• Most GIS vendors are OGC members• Therefore most support connection to
OGCOGC services– WMS common and relatively matureWMS common and relatively mature
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WMS Connection from ArcGISWMS Connection from ArcGIS
ArcGIS 8.3…
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W b d t (2)Web data access (2)
• What if we want to access source data?W b C S i (WCS)• Web Coverage Service (WCS) –raster/coveragesg
• Web Feature Service (WFS) –/fvector/features
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Cadcorp – WMS & WFSp
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Comsine Ltd.:WCS demonstrationWCS demonstrationwcs_url = 'http://iceds.ge.ucl.ac.uk/cgi-bin/wcs?map=wcs map&SERVICE=WCS&REQUEST=GetCoverbin/wcs?map=wcs.map&SERVICE=WCS&REQUEST=GetCoverage&COVERAGE=srtm&FORMAT=GEOTIFFINT16'
res = max(tif_pixsize_x, tif_pixsize_y)wcsRequest = wcs_url + "&CRS=EPSG:" +
str(epsg) + "&BBOX=" + bbox + "&RESX=" +str(res) + "&RESY=" + str(res)
logger.info("WCS REQUEST " + wcsRequest)if (dem == None):if (dem == None):
demFilename = str(time.clock()) + ".tif"urllib.urlretrieve(wcsRequest, filename)cleanup = 1
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Beyond Web MappingBeyond Web Mapping• Web processingp g• Service chaining
• Sensor webs• Sensor webs– http://www.opengeospatial.org/projects/groups/sensorweb
– http://vast.uah.edu/SensorML
• City & building modelling (CityGML)y g g ( y )• ISO TC/211: geospatial standards
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GEOSSGEOSS
• Global Earth Observation System of Systems(http://www earthobservations org/)(http://www.earthobservations.org/)
• An attempt to create an umbrella systemp ygiving access to data from national & international remote sensing space agenciesinternational remote sensing space agencies
• Hence distributed data, and probablyHence distributed data, and probably distributed processing
• Each agency maintains own services
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GEOSS componentsp
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ConclusionsConclusions• If we have Google do we need the OGC?• If we have Google, do we need the OGC?• Yes and no – depends on your applicationp y pp• Probably not for mass-market / consumer
( )web mapping (but, mixed system mash-ups)• But yes if you want to:• But yes if you want to:
– use own base maps, or complex overlays;– connect desktop GIS to GIS web services;
start mixing data from different services; or– start mixing data from different services; or– create complex geospatial models or services.
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W b P iWeb Processing• In future we will want to do more than just
display data off the webdisplay data off the web• What if we want to insert some processing p g
(from rendering through to data analysis)? And do this in flexible on the flyAnd do this in flexible, on-the-fly architectures?
• Web Processing Services (WPS)R t ti l d l ti l– Runs geocomputational models or geospatial operations on user-supplied datasets
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S i h i iService chainingHow do we compose a sequence of• How do we compose a sequence of processes, a service chain?p
• Adopt technology from the IT industry:• BPEL: Business Processes Execution
LanguageLanguage• Increasingly important for distributed data &
distributed processingThis is just part of the interoperable• This is just part of the interoperable infrastructure needed
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Fine dust (PM10) prediction maps
DiscoverLog in
Access Order
SSE Portal
Order
DiscoverService
Request access
ResultsView SOS/WMS
BPEL Workflow
Web Service at IRCEL
Web Service at Vito
OVLForecast
Model
RIOInterpolation
Model
SOSPM10
WMS PM10Maps
WCS/WMSAOD
SOSForecastsModel Model Maps
Slide from Yves Coen, GEOSS ADC Architecture W k h 2/2008 AOD
ToolkitPM10 measurements
OVL Forecasts
Workshop, 2/2008
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Fine Dust Forecast - Result
Slides from Yves Coen, GEOSS ADC Architecture
Workshop, 2/2008
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W b i d th b tWeb mapping – under the bonnet
• Web mapping is a client/server systemCli t PC d it b b• Client: your PC and its web browser
• Server: the web servers (hardware andServer: the web servers (hardware and software)
Th t d i f b i d i• The art and science of web mapping design is especially about the balance between p yclient and server processing
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Simple server-side mapsp pClient Server
1. Browser requests map URL
4. Map tiles are requested to build Web page
2. Web server calls
Internet
map script via CGI
3 S i t
Browser software Web server
3. Script returns HTML doc referring to
Files /
Map script - returns custom HTML document
specific map tile images
Files / D'base
Example: Streetmap.co.uk
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Server-side interactive mappingpp gClient Server
21
2
3
Web server
5
Internet
Web server
Servlet Exec
Browser software Internet Map
Web page script
4
Fil /
Map Server
Files / D'base
Example: USGS Coastal Mapping (ArcIMS)
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Client/server systemyClient Server
12
5
34
Web server
6
InternetBrowser software
Web server
Servlet Exec
Internet Map
Web page script
Browser
Files /
Map ServerJava GIS app.
Browser plug-in
Files / D'base
Java VM
Example: Flash Earth